Targeting the microenvironment in chronic lymphocytic leukemia offers novel therapeutic options

Chronic lymphocytic leukemia (CLL) cells display features consistent with a defect in apoptosis and exhibit prolonged survival in vivo. Survival of these malignant cells is influenced by interactions with non-leukemic cells located in permissive niches in lymphoid organs. Leukemic cells subvert the normal architecture of the lymphoid organs, recruiting stromal cells, dendritic cells and T lymphocytes, all reported as playing active roles in the survival and proliferation of CLL. The same survival-promoting environment also rescues/protects leukemic cells from cytotoxic therapies, giving way to disease relapse. This review summarizes and discusses current knowledge about the intricate network of soluble and cell-bound signals regulating the life and death of CLL cells in different districts. At the same time, it seeks to hone in on which discrete molecular elements are best suited as targets for treating this still incurable disease

Sewing a Small Town: the renaissance of a historical center

The design themes focus on the renovation, reuse and re-utilization of old and valuable buildings, now in disuse, and the rethinking of public places to be integrated into the urban context, now partly in ruins and without an active identity to enhance the past of the town. The summer school will explore the possibilities of conscious interventions in the historic center through contemporary sustainable architecture. Addressing the new buildings within the residual spaces, the re-utilization of buildings and interventions at the seam between the old core and the peripheral parts are the main goals of the projects developed by the participants during the two-week workshop

Adenosine signaling mediates hypoxic responses in the chronic lymphocytic leukemia microenvironment

The chronic lymphocytic leukemia (CLL) niche is a closed environment where leukemic cells derive growth and survival signals through their interaction with macrophages and T lymphocytes. Here, we show that the CLL lymph node niche is characterized by overexpression and activation of HIF-1a, which increases adenosine generation and signaling, affecting tumor and host cellular responses. Hypoxia in CLL lymphocytes modifies central metabolic pathways, protects against drug-driven apoptosis, and induces interleukin 10 (IL-10) production. In myeloid cells, it forces monocyte differentiation to macrophages expressing IRF4, IDO, CD163, and CD206, hallmarks of the M2 phenotype, which promotes tumor progression. It also induces IL-6 production and enhances nurturing properties. Low oxygen levels decrease T-cell proliferation, promote glycolysis, and cause the appearance of a population of PD-11 and IL-10–secreting T cells. Blockade of the A2A adenosine receptor counteracts these effects on all cell populations, making leukemic cells more susceptible to pharmacological agents while restoring immune competence and T-cell proliferation. Together, these results indicate that adenosine signaling through the A2A receptor mediates part of the effects of hypoxia. They also suggest that therapeutic strategies to inhibit the adenosinergic axis may be useful adjuncts to chemotherapy or tyrosine kinase inhibitors in the treatment of CLL patients

NAD+-metabolizing ecto-enzymes shape tumor–host interactions: The chronic lymphocytic leukemia model

AbstractNicotinamide adenine dinucleotide (NAD+) is an essential co-enzyme that can be released in the extracellular milieu. Here, it may elicit signals through binding purinergic receptors. Alternatively, NAD+ may be dismantled to adenosine, up-taken by cells and transformed to reconstitute the intracellular nucleotide pool. An articulated ecto-enzyme network is responsible for the nucleotide–nucleoside conversion. CD38 is the main mammalian enzyme that hydrolyzes NAD+, generating Ca2+-active metabolites. Evidence suggests that this extracellular network may be altered or used by tumor cells to (i) nestle in protected areas, and (ii) evade the immune response. We have exploited chronic lymphocytic leukemia as a model to test the role of the ecto-enzyme network, starting by analyzing the individual elements that make up the whole picture

Linking SLAMF1 to autophagy and sensitivity to therapy in chronic lymphocytic leukemia

We recently reported that expression of the costimulatory molecule and microbial sensor SLAMF1 (signaling lymphocytic activation molecule family 1, also known as CD150) is lost in chronic lymphocytic leukemia (CLL) patients characterized by a shorter overall survival. SLAMF1 modulates CLL responses to chemokines and regulates autophagy. Loss of SLAMF1 renders CLL cells relatively unresponsive to autophagy-inducing drugs, including B-cell CLL/lymphoma 2 (BCL2) inhibitors

Sewing a small town. Una scuola estiva di architettura come strumento per l'identificazione di metodologie operative per la rinascita di un centro storico. Sewing a small town. A summer school as a tool for the identification of working methodologies for the renaissance of a historical center.

Gassino Torinese is a town of the second belt of Turin with approximately 9.500 inhabitants; it's characterized by an ancient part of the city marked by a medieval urban plan and baroque architectures; this part of the city is going through a progressive depopulation despite the steady growth of the municipal population, caused by a general desire by people of Turin to move to peripheral areas in single-family detached houses with garden. Architecture summer school "Sewing a small town. The renaissance of a historical center", held in Gassino Torinese in 2015 has been conceived as an operative research tool for the identification of new planning instruments of design solutions for the redevelopment and valorization of the ancient part of the city